Memory leaks in .NET application have always being programmer's nightmare. Memory leaks are biggest problems when it comes to production servers. Productions servers normally need to run with least down time. Memory leaks grow slowly and after sometime they bring down the server by consuming huge chunks of memory. Maximum time people reboot the system, make it work temporarily and send a sorry note to the customer for the downtime.

The first and foremost task is to confirm that there is memory leak. Many developers use windows task manager to confirm, is there a memory leak in the application?. Using task manager is not only misleading but it also does not give much information about where the memory leak is.

First let's try to understand how the task manager memory information is misleading. Task manager shows working set memory and not the actual memory used, ok so what does that mean. This memory is the allocated memory and not the used memory. Adding further some memory from the working set can be shared by other processes / application.

In order to get right amount of memory consumed by the application we need to track the private bytes consumed by the application. Private bytes are those memory areas which are not shared by other application. In order to detect private bytes consumed by an application we need to use performance counters.

Below are the steps we need to follow to track private bytes in an application using performance counters:-

Start you application which has memory leak and keep it running.

Click start ÃƒÂ Goto run and type 'perfmon'.

Delete all the current performance counters by selecting the counter and deleting the same by hitting the delete button.

From the instance list select the application which you want to test memory leak for.

If you application shows a steady increase in private bytes value that means we have a memory leak issue here. You can see in the below figure how private bytes value is increasing steadily thus confirming that application has memory leak.

The above graph shows a linear increase but in live implementation it can take hours to show the uptrend sign. In order to check memory leak you need to run the performance counter for hours or probably days together on production server to check if really there is a memory leak.

Before we try to understand what the type of leak is, let's try to understand how memory is allocated in .Net applications. .NET application have two types of memory managed memory and unmanaged memory. Managed memory is controlled by garbage collection while unmanaged memory is outside of garbage collectors boundary.

So the first thing we need to ensure what is the type of memory leak is it managed leak or unmanaged leak. In order to detect if it's a managed leak or unmanaged leak we need to measure two performance counters.

The first one is the private bytes counter for the application which we have already seen in the previous session.

The second counter which we need to add is 'Bytes in all heaps'. So select '.NET CLR memory' in the performance object, from the counter list select 'Bytes in all heaps' and the select the application which has the memory leak.

Private bytes are the total memory consumed by the application. Bytes in all heaps are the memory consumed by the managed code. So the equation becomes something as shown in the below figure.

Un Managed memory + Bytes in all helps = private bytes, so if we want to find out unmanaged memory we can always subtract the bytes in all heaps from the private bytes.

Now we will make two statements:-

If the private bytes increase and bytes in all heaps remain constant that means it's an unmanaged memory leak.

If the bytes in all heaps increase linearly that means it's a managed memory leak.

Below is a typical screenshot of unmanaged leak. You can see private bytes are increasing while bytes in heaps remain constant

Below is a typical screen shot of a managed leak. Bytes in all heaps are increasing.

Now that we have answered what type of memory is leaking it's time to see how is the memory leaking. In other words who is causing the memory leak ?.

So let's inject an unmanaged memory leak by calling 'Marshal.AllocHGlobal' function. This function allocates unmanaged memory and thus injecting unmanaged memory leak in the application. This command is run within the timer number of times to cause huge unmanaged leak.

It's very difficult to inject a managed leak as GC ensures that the memory is reclaimed. In order to keep things simple we simulate a managed memory leak by creating lot of brush objects and adding them to a list which is a class level variable. It's a simulation and not a managed leak. Once the application is closed this memory will be reclaimed.

Once you know the source of memory leak is, it's time to find out which logic is causing the memory leak. There is no automated tool to detect logic which caused memory leaks. You need to manually go in your code and take the pointers provided by 'debugdiag' to conclude in which places the issues are.

For instance from the report it's clear that 'AllocHGlobal' is causing the unmanaged leak while one of the objects of GDI is causing the managed leak. Using these details we need to them go in the code to see where exactly the issue lies.

It would be unfair on my part to say that the above article is completely my knowledge. Thanks for all the lovely people down who have written articles so that one day someone like me can be benefit.

http://blogs.msdn.com/tess/ A great blog by a lovely lady Tess on debuggers. There are some great labs on memory leak detection using windbg , do not miss it. Tess god bless you, your blog rocks like anything.

Really helpful to all the .NET developer...I am started using .NET profiler but is there .Net Profiler 3.5 available. I checked on google its shows me .NET Profiler 2.0 only available..Is 2.0 is the latest available?